Method for ejecting sheets from an output holder of a printing device

ABSTRACT

The invention relates to a method for ejecting a stack of sheets from an output holder attached to a printing device, the output holder configured to hold a stack of sheets printed upon by the printing device according to a plurality of print jobs submitted to the printing device, the printing device comprising a control unit for controlling the receiving of the plurality of print jobs in a print job queue and the printing of the plurality of print jobs according to the print job queue, the method comprising the steps of receiving a trigger comprising information for an ejection of the stack for another reason than a full output holder, the stack ejection to be performed before the start of the printing of a print job residing in the print job queue or after the print job residing in the print job queue has been printed, and entering a task for the ejection of the stack at a position in the print job queue, the position determining an intended moment in time of the ejection of the stack corresponding to the information comprised in the trigger. The invention also relates to a printing system configured to execute the method according to the present invention.

FIELD OF THE INVENTION

The present invention relates to a method for ejecting a stack of sheetsfrom an output holder attached to a printing device, the output holderconfigured to hold a stack of sheets printed upon by the printing deviceaccording to a plurality of print jobs submitted to the printing device,the printing device comprising a control unit for controlling thereceiving of the plurality of print jobs in a print job queue and theprinting of the plurality of print jobs according to the print jobqueue. A print job is a job for printing at least one document accordingto a plurality of accompanying settings. A print job may for examplecomprise a setting determining the number of copies of the at least onedocument to be printed.

The present invention further relates to a printing system which isconfigured to apply the method according to the present invention.

BACKGROUND OF THE INVENTION

Nowadays productivity plays an important role in printing systems. Printjobs are printed consecutively by means of a printing device. Afterprinting upon sheets by the printing device the sheets are transportedto an output holder attached to the printing device. The output holdermay be part of the printing device or coupled to an outlet of theprinting device. The output holder has a maximum capacity expressed in amaximum number of sheets in the output holder—mostly media dependent—,expressed in a maximum weight of the amount of sheets in the outputholder, and/or expressed in a maximum stack height of the sheets in theoutput holder. The sheets form a stack of sheets in the output holder.

Two scenarios for ejection of the stack from the output holder aregenerally known. During a stack ejection the stack of sheets istransported from inside the output holder towards outside the outputholder by transporting means. After the stack ejection the empty outputholder is ready for receiving the next sheets from the printing device.In a first scenario the printing device receives print jobs andschedules the received printing jobs in a print job schedule. After eachprint job has been printed by the printing device and has arrived in theoutput holder, the sheets of the print job are ejected from the outputholder. This way of ejection is often a standard system setting of theprinting device.

In a second scenario the printing device or more specifically the outputholder comprises a detecting means for detecting that the stack ofsheets reaches the maximum capacity and an ejection of the stack isperformed.

A combination of both scenarios may as well be implemented. In case of aprint job which number of sheets accumulated with the sheets alreadydeposited in the output holder exceeds the maximum capacity of theoutput holder a stack ejection may be planned before the start of theprint job.

Both scenarios have disadvantages. By ejecting sheets from the outputholder after each print job according to the first scenario, much timeis consumed by the moments of ejection. By only ejecting sheets from theoutput holder when the output holder has reached its maximum capacity,sheets of a plurality of print jobs are stacked and the sheets may beundistinguishable as distinct jobs in the stack. Additional joggingdevices must be configured to distinguish the subsequent print jobs inthe stack. When the stack is only ejected when the output holder hasreached its maximum capacity, the operator is unable to have a look atthe separate print jobs since the stack may be positioned internally inthe printing device before ejection.

It is an objective of the present invention to overcome thesedisadvantages in a user friendly and productive manner.

SUMMARY OF THE INVENTION

According to the present invention the method comprises the steps ofreceiving a trigger comprising information for an ejection of the stackfor another reason than a full output holder, the stack ejection to beperformed before the start of the printing of a print job residing inthe print job queue or after the print job residing in the print jobqueue has been printed, and entering a task for the ejection of thestack at a position in the print job queue, the position determining anintended moment in time of the ejection of the stack corresponding tothe information comprised in the trigger, wherein the stack is intendedto comprise a plurality of print jobs at the intended moment in time ofthe ejection of the stack.

The print job queue determines a sequence order of printing the printjobs by the printing device. The entered task is incorporated in theprint job queue and executed according to the sequence order of theprint job queue after or before the print job residing in the print jobqueue. The entering of the task in the print job queue is automaticallyexecuted by the control unit of the printing device.

Due to the fact that the stack comprises a plurality of print jobs atthe intended moment of the stack ejection, print jobs may be bundledaccording to a bundling criterion. Such a bundling criterion may be thatthe print jobs have to be sent to the same customer, have to be packedin a same box, have to be finished together like sealing, etc.

According to an embodiment the method comprises the steps of printingthe print jobs according to the print job queue, and ejecting the stackof sheets according to the entered task in the print job queue.

According to an embodiment the method comprises the step of receivingthe trigger from a job submitter for submitting the print job to theprinting device. The job submitter may be part of a printer driver or apre-processing application, like an image preparing application, apre-press application, or a pre-flight application. The pre-processingapplication may comprise a hot folder mechanism for receiving documentfiles in a hot folder and automatically retrieving the document filessubsequently from the hot folder in order to transmit the document filessubsequently to the printing device.

According to an embodiment the method comprises the step of providingfirst feedback in a window being part of the job submitter regarding theintended moment in time of the ejection of the stack. By giving feedbackthe user is able to determine if the intended moment in time of theejection of the stack is well-chosen or has to be changed.

According to an embodiment the provided first feedback comprisesinformation of at least one out of a predetermined number of sheets inthe stack at the intended moment in time of ejection of the stack, apredetermined height of the stack at the intended moment in time ofejection of the stack, a predetermined number of print jobs in the stackat the intended moment in time of ejection of the stack, a predeterminednumber of sets of a print job in the stack at the intended moment intime of ejection of the stack, a predetermined weight of the stack atthe intended moment in time of ejection of the stack, a change of acustomer name property among the print jobs in the stack at the intendedmoment of ejection of the stack, and a maximum sheet size of the stackat the intended moment of ejection of the stack.

According to an embodiment the printing device comprises or is connectedto a user interface for displaying the print job queue and the methodcomprises the steps of displaying the print job queue on the userinterface, and receiving the trigger from an action applied to the printjob queue displayed on the user interface. The action may be a useraction or an action automatically generated by a control unit of theprinting device.

According to an embodiment the user interface is configured to display avisual representation of the print job queue, the visual representationcomprising a plurality of first visual objects, each first visual objectrepresenting a print job in the print job queue, and a second visualmovable object representing an ejection of a stack, the methodcomprising the step of determining the intended moment in time of theejection of the stack based on a relative position of the second visualobject and each of the first visual objects.

According to an embodiment the method comprises the step of changing theintended moment in time of the ejection of the stack in the print jobqueue by moving the second visual object to another position in theprint job queue. The movement of the second visual object may be adrag-and-drop movement by a mouse or by means of a touch on a screen ofthe user interface.

According to an embodiment the user interface is configured to displayan eject button and the method comprises the steps of selecting a printjob from the print job queue, activating the eject button, entering thetask for the ejection of the stack after the selected print job in theprint job queue, displaying the second visual movable object in thevisual representation of the print job queue after the first visualobject representing the selected print job. Mutatis mutandis the taskmay be entered before the selected print job and the second visualmovable object may be displayed in the visual representation of theprint job queue before the first visual object representing the selectedprint job. The terms after and before may be interpreted according to asequence order being inherent to the print job queue.

According to an embodiment the method comprises the step of providingsecond feedback regarding the changing of the intended moment in time ofthe ejection of the stack. By changing the intended moment in time ofejection of the stack other constraints of the printing device and/oropportunities of the print job queue may be triggered. The user receivesthe second feedback regarding these constraints and/or opportunities ona screen of the user interface.

According to an embodiment the provided second feedback comprisesinformation of at least one out of a predetermined number of sheets inthe stack at the intended moment in time of ejection of the stack, apredetermined height of the stack at the intended moment in time ofejection of the stack, a predetermined number of print jobs in the stackat the intended moment in time of ejection of the stack, a predeterminednumber of sets of a print job in the stack at the intended moment intime of ejection of the stack, a predetermined weight of the stack atthe intended moment in time of ejection of the stack, and a change of acustomer name property among the print jobs in the stack at the intendedmoment of ejection of the stack.

According to an embodiment the trigger is a print job ticket comprisinga setting for ejection of a stack having a value out of a first value ofan ejection of the stack before the printing of the print job, a secondvalue of an ejection of a stack after the printing of the print job, athird value of no ejection of the stack, and a fourth value of anunspecified stack ejection. The fourth value of an unspecified ejectionof the stack may be added to the set of values for the setting when arule based system is used by the printing device comprising rules forstack ejection.

According to an embodiment method comprises the step of receiving thetrigger from a local user interface being part of the output holder. Astack ejection request for immediate stack ejection may be entered onthe local user interface of the output holder. The running print job isexecuted until the end of the print job. After the receipt of the sheetsof the executed print job on the stack, the stack is ejected.

According to an embodiment the method comprises the step of receivingthe trigger from a rule based system comprising ejection rules derivedfrom properties of the print jobs residing in the print job schedule.The rule based system may reside in the control unit of the printingdevice or in a computer for receiving a submitted print job, thecomputer connected to the printing device via a data communicationnetwork.

According to an embodiment each ejection rule of the rule based systemhas a setting out of an activation option of the rule, a deactivationoption of the rule and an advice option of the rule, wherein the userinterface provides an advice for an ejection of the stack if the settingof the advice option is set for the rule. In the latter case the advisedstack ejection is executed as soon as the advice is affirmed by theoperator by means of the appropriate user interface.

According to an embodiment the rule based system supports an ejectionrule that an ejection is to be scheduled between a first print job to beprinted before a second print job, the first print job having a smallerformat than the second print job. By building “pyramidal” stacks, amoment in time of an ejection of the stack may be selected between themoment in time when a “pyramidal” stack has been formed and the momentin time when a new “pyramidal” stack is started to be formed. A“pyramidal” stack may be defined as a stack which dimensions in theother dimensions than the stack height are decreasing from the bottom ofthe stack towards to the top of the stack.

According to an embodiment the rule based system supports an ejectionrule that an ejection is to be scheduled between a first print job to beprinted before a second print job, the first print job to be deliveredto another customer than the second print job. Documents producedaccording to print jobs for one customer may have to be finished, likebundling, parcelling, sealing and stapling, in another way thandocuments produced according to print jobs for another customer.

According to an embodiment the task for the ejection of the stackcomprises a transfer of the stack from an internal output holder of theprinting device to an external output holder of the printing device. Theinternal stack holder may not be reachable by an operator. The operatorcan only take the stack from the external output holder for furtherprocessing.

According to an embodiment the task for the stack ejection comprises atemporary stop of ejecting sheets of print jobs to the output holder asto enable a purposively emptying of the output holder. While theejection of the sheets has stopped, the operator is able to empty theoutput holder at the intended moment of stack ejection. The emptyingaction of the operator is actually the ejection of the stack, i.e. aremoval of the stack from the output holder. Stopping of ejection of thesheets may imply that the printing by the printing device is stopped.However, a printing device having a large internal buffer for holdingsheets does not have to stop printing, but can just stop the transfer ofsheets from the large internal buffer to the output holder.

The present invention also relates to a printing system for printingprint jobs on sheets, the print system comprising a printing device, anoutput holder attached to the printing device configured to hold a stackof sheets printed upon by the printing device, a first receiving meansfor receiving a print job to be printed on the printing device, a secondreceiving means for receiving a trigger comprising information for anejection of the stack to be performed before the start of the printingof the print job residing in the print job schedule or after the printjob residing in the print job schedule has been printed, a control unitfor controlling the printing of the print job and the ejection of thestack, the control unit maintaining a print job queue for schedulingprint jobs and stack ejections, wherein upon receiving the trigger atask for the ejection of the stack is entered at a position in the printjob queue, the position determining an intended moment in time of theejection of the stack corresponding to the information comprised in thetrigger.

According to an embodiment the printing system comprises a rule basedsystem comprising ejection rules derived from properties of print jobsresiding in the print job queue, the rule base system configured to sendthe trigger to the second receiving means.

The present invention also relates to a non-transitory recording mediumcomprising computer executable program code configured to instruct acomputer to perform the method according to any of the embodiments ofthe method according to the present inventions.

Further scope of applicability of the present invention will becomeapparent from the detailed description given hereinafter. However, itshould be understood that the detailed description and specificexamples, while indicating embodiments of the invention, are given byway of illustration only, since various changes and modifications withinthe scope of the invention will become apparent to those skilled in theart from this detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows schematically a printing system in which the methodaccording to the present invention is applicable.

FIGS. 2-4 show schematically user interface windows for representing theprint job queue of a printing system according to the method of theinvention.

FIG. 5 shows schematically a user interface window of a job submitterfor submitting a print job to the printing system according to themethod of the invention.

FIG. 6 shows schematically a user interface windows for representing theprint job queue of the printing system according to the method of theinvention.

FIG. 7 shows schematically the user interface window of the jobsubmitter provided with a feedback window according to the method of theinvention.

FIG. 8 shows schematically the user interface window of the print jobqueue provided with a feedback window according to the method of theinvention.

FIG. 9 shows a flow diagram of a method according to the presentinvention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

A number of embodiments will now be described in conjunction with thedrawings, in which same reference numerals refer to like elements.

FIG. 1 shows schematically a printing system 1 in which the methodaccording to the present invention is applicable. The printing system 1,for purposes of explanation, is divided into an output section 5, aprint engine and control section 3, a local user interface 7 and aninput section 4. While a specific printing system is shown anddescribed, the disclosed embodiments may be used with other types ofprinting system such as ink jet, electrographic, etc.

The output section 5 comprises at least one output holder 52 for holdingprinted image receiving material. The printed image receiving materialis transported from the print engine and control section 3 via an inlet53 to the output section 5. When a stack ejection command is invoked bythe control unit 37, guiding means 54 are activated in order to ejectthe stack on the output holder 52 outwards to an external output holder51. The operator can take the stack from the external output holder 51for further processing the outputted documents in the stack. Finishingequipment may be added to or replace the external holder 51 for furtherfinishing the ejected stack. The internal output holder 52 may not bereachable by an operator. In the latter case the operator cannot takethe stack from the internal output holder 52 for further processing, buthe can only take the stack from the external output holder 51 forfurther processing.

According to an alternative embodiment (not shown) the task for thestack ejection comprises a temporary stop of ejecting sheets of printjobs to an external output holder in the print job queue in order toenable a purposively emptying of the output holder according to thepresent invention. While the ejection of the sheets has stopped, theoperator is able to empty the output holder at the intended moment ofstack ejection. The emptying action of the operator is actually theejection of the stack. Stopping of ejection of the sheets may imply thatthe printing by the printing device is stopped. However, a printingdevice having a large internal buffer for holding sheets does not haveto stop printing, but can just stop the transfer of sheets from thelarge internal buffer to the output holder.

According to an alternative embodiment (not shown) the printing systemcomprises a first output holder and a second output holder and sheetsare automatically transferred to the second output holder when the firstoutput holder has to be emptied.

The output section 5 is digitally connected by means of a cable 60 tothe print engine and control section 3 for bi-directional data signaltransfer.

The print engine and control section 3 comprises a print engine and acontrol unit 37 for controlling the printing process. The control unitis a computer or server or a workstation, connected to the print engineand connected to the digital environment of the printing system, forexample a network N for transmitting a submitted print job to theprinting system. In FIG. 1 the control unit 37 is positioned inside theprint engine and control section 3, but the control unit 37 may also bepositioned outside the print engine and control section 3 in connectionwith the network N. The print engine comprises a print head or printassembly 31 for ejecting and/or fixing marking material to imagereceiving material and a paper path 34, 32, 35 for transporting theimage receiving material from an entry point 36 of the print engine andcontrol section 3 to the inlet 53 of the output section 5. The printhead or print assembly 31 is positioned near the paper path section 34.The print head or print assembly 31 may be an inkjet print head, adirect imaging toner assembly or a indirect imaging toner assembly.While an image receiving material is transported along the paper pathsection 34, the image receiving material receives the marking materialfrom the print head or print assembly 31. A next paper path section 32is a flip unit for selecting a different subsequent paper path forsimplex or duplex printing of the image receiving material. The flipunit 32 may be also used to flip a sheet of image receiving materialafter printing in simplex mode before the sheet leaves the print engineand control section 3 via a curved section 38 of the flip unit 32 andvia the inlet 53 to the output section 5. The curved section 38 of theflip unit 32 may not be present and the turning of a simplex page has tobe done via another paper path section 35.

When the image receiving material has been printed upon, the imagereceiving material is transported to the inlet 53 of the output section5.

The input section 4 may comprise at least one input holder 44, 45, 46for holding the image receiving material before transporting the sheetsof image receiving material to the print engine and control section 3.Sheets of image receiving material are guided from the input holders 44,45, 46 by guiding means 42, 43, 47 to an outlet 36 for entrance in theprint engine and control section 3.

The local user interface is suitable for displaying user interfacewindows for controlling the print job queue residing in the control unit37. In another embodiment a computer in the network N has a userinterface for displaying and controlling the print job queue of theprinting system 1.

FIG. 2 shows a user interface window 200 of the printing system 1according to the present invention. In an alternative embodiment part ofthe functionality—like buttons—of this user interface window is designedas hardware buttons near the user interface window 200. The userinterface window 200 is opened at the local user interface 7 in FIG. 1and shows a representation of the print job queue residing in thecontrol unit 37 in FIG. 1.

The user interface window 200 comprises a title section 210, a useraction section 220, a print job queue section 230 and a navigationsection 240.

The user action section 220 comprises image items 221-226 to be selectedfor executing actions on the print job queue 23A in the print job queuesection 230.

A first image item 221 represents a stack ejection action according tothe present invention. In an alternative embodiment the user actionsection comprises a first stack ejection image item stack representing astack ejection action after a selected print job from the print jobqueue 23A and a second stack ejection image item representing a stackejection action before a selected print job from the print job queue23A.

A second image item 222 represents a job removal action.

A third image item 223 represents a job duplication action.

A fourth image item 224 represents a move up action.

A fifth image item 225 represents a move down action.

A sixth image item 226 represents an action to retrieve and displayproperties of a selected print job in a properties window.

The navigation section 240 comprises a first image item 241 fornavigating to a schedule with a timeline and media needed for the printjobs, a second image item 242 for navigating to an overview of the inputtrays and the content of the input trays, a third image item 243 fornavigating to the system settings and a fourth image item 244 fornavigating to the print jobs in the print job queue 23A. In the userinterface window 200 the fourth image item 244 is selected.

The print job queue section 230 comprises a representation of the printjob queue 23A. The print job queue 23A comprises at least one print job.FIG. 2 shows a plurality of print jobs 231-237 in the print job queue23A in a sequence order from top to bottom. A first print job 231 willbe printed real soon after the print job that is currently printed bythe printing device is ready. A last print job 237 will be printed ifthe preceding print jobs 231-236 are ready. Each print job 231-237 inthe print job queue 23A is selectable by a mouse or by a finger orstylus in case of a touch screen. A sequence order of the print jobs231-237 in the print job queue 23A may be changed by selecting a printjob in the print job queue 23A and then activating the fourth image item224 or the fifth image item 225 in order to move the selected print jobone position up or down respectively in the print job queue 23A. In afurther embodiment in case of a touch screen a position of a print job231-237 in the print job queue 23A may be changed by dragging anddropping the appropriate print job to another position in the printqueue. The print job queue 23A is scrollable by activating an upwardscrolling button 238 or a downward scrolling button 239. Each print job231-237 in the print job queue 23A may be displayed with a number ofproperties of the print job, such as an identifying name of the printjob (“Print job 1”), a size of the image receiving material to be usedfor the print job (“A3”), a customer name corresponding to the customerwhere the print job has to be delivered “Customer 1”, etc. Forconvenience reasons a small relevant number of properties for each printjob 231-237 is displayed in the print job queue 23A.

A use of the first image item 221 representing the stack ejection actionaccording to the present invention will be further elucidatedhereinafter. The operator is able to select a print job from the printjob queue 23A. After the selection of the print job the operator mayactivate the first image item 221. By activating the first image item221 an ejection of the stack from the output holder is planned after theselected print job.

By means of a number of examples advantageous planning of the ejectionof the stack is described hereinafter.

In a first example the operator has noticed that the first four printjobs 231-234 have to be delivered to a first customer (“Customer 1”),while the last three print jobs 235-237 have to be delivered to a secondcustomer (“Customer 2”). Therefore the operator may want to have anejection of the stack after the fourth print job 234, the last print jobfor the first customer, and before the fifth print job 235, the firstprint job for the second customer. The operator selects the fourth printjob 234 and activates the first image item 221. The result of thisaction is shown in FIG. 3.

FIG. 3 shows in a window 300 a task image item 234A for a stack ejectionof a first output holder (“Stacker 1”) of the printing system accordingto the present invention. The task image item 234A is positioned in therepresentation of the print job queue 23A between the fourth print job234 and the fifth print job 235.

In an embodiment of the present invention the sixth image item 226 isused for retrieving and changing of properties of a selected print jobin the print job queue 23A and is also used for retrieving and changingof properties of a selected stack ejection, e.g. the properties of thetask image item 234A. A property of the task image item 234A may be theidentification of the output holder. This is in particular advantageousin case of more than one output holder. For example, the planned stackejection may be changed from a stack ejection of the first output holder“Stacker 1” into a stack ejection from a second output holder—forexample “Stacker 2”—by means of the activation of the sixth image item226 after selection of the task image item 234A. For example, proofprint jobs are delivered to a top output holder of the printing system 1and a stack ejection may be planned after a proof print job has beenprinted.

In another embodiment the properties of an item 231-236, 234A in theprint job queue 23A are displayed after double clicking or doubletapping on the item.

In general the task image item 234A—when displayed in the print jobqueue 23A—may be selected by a mouse of by a touch on the task imageitem 234A. The selected task image item 234A may be moved along theprint job queue 23A by a mouse movement, by a drag-and-drop action incase of a touch screen or by means of the fourth image item 224 (“moveup”) and/or the fifth image item 225 (“move down”) in order to changethe moment of stack ejection with respect to the print jobs 231-237 inthe print job queue 23A.

The task image item 234A is displayed in the form of a bar. Other shapesmay be envisioned like a flag icon before a print job item 231-236, aflag icon after a print job item 231-236, a modified print job item231-236 with an upper corner provided with an icon to represent a stackejection before the print job corresponding to the print job item, amodified print job item 231-236 with an lower corner provided with anicon to represent a stack ejection after the print job corresponding tothe print job item, etc.

In a second example the operator has noticed that the first three printjobs 231-233 have a size property, “A3”, “A4”, “A5”, respectively whichsizes are in a decreasing order. The stack of the first three print jobs231-233 will therefore form a kind of pyramidal stack since the laterprint job will end up on top of the previous print job. Print jobs insuch a pyramidal stack are easy visible and easy to process. The fourthjob 234 has a size property of “A4”, which is larger than the size “A5”of the preceding print job 233. Therefore the operator may want to havean ejection of the stack after the third print job 233 and before thefourth print job 234. The operator selects the third print job 233 andactivates the first image item 221. The result of this action is shownin FIG. 4.

FIG. 4 shows in a window 400 a task image item 233A for a stack ejectionof a first output holder (“Stacker 1”) of the printing system accordingto the present invention. The task image item 233A is positioned in therepresentation of the print job queue 23A between the third print job233 and the fourth print job 234.

According to the same principle of pyramidal stack ejection a stackejection according to the present invention may also be inserted afterthe fifth print job 235 and before the sixth print job 236.

The first example and the second example may be combined. The firstexample and the second example show stack ejections 234A, 233Arespectively planned by the operator and based on the properties of theprint jobs 231-237 in the print job queue 23A. According to anembodiment the criteria employed by the operator may be encoded insoftware for a rule base system comprising rules for a stack ejectionbased on the properties of the print jobs in the print job queue of theprinting system. The rule based system may be part of the control unitof the printing system according to the present invention. Theapplication of the rules in the rule based system leads to an automaticstack ejection without intervention of the operator via one of thewindows 200, 300, 400 shown in FIG. 2, FIG. 3 and FIG. 4 respectively.

FIG. 5 shows a window 500 of a job submitter for submitting print jobsto the printing device. The job submitter may be part of apre-processing application or a printer driver. The pre-processingapplication may comprise a hot folder mechanism for receiving documentfiles in a hot folder and automatically retrieving the document filessubsequently from the hot folder in order to transmit the document filessubsequently to the printing device.

FIG. 5 shows a window 500 comprised in a printer driver application.

From three tabs “Advanced”, “Job”, “Printer”, the second tab “Job” isselected. A number of copies may be selected in a first entry field 530.A job name may be entered in a second entry field 540. A plurality ofsettings may be set for a layout of the print job and media of the printjob. Image parameters and finishing parameters may be set. The finishingparameters are selected and expanded. Finishing parameters concern apage order, a collate option, a banner page option and an output option.According to the present invention one of the finishing parameters is astack ejection option 510 for defining an ejection of the stack beforeor after the print job. In a selection box 520 an option “After job” isselected, meaning that after this print job has been printed a stackejection will take place. Another option is “Before job” (not shown),meaning that before this print job is started to be printed a stackejection will take place or before printed sheets of this print jobarrive at the output holder. Another option is “Before job and afterjob” (not shown), meaning that before this print job is started to beprinted a stack ejection will take place and after this print job hasbeen printed a stack ejection will take place. Another option is “Nostack ejection” (not shown), meaning that before as well as after thisprint job no stack ejection will take place. Another option is“Unspecified” (not shown), meaning that no stack ejection is specifiedaccording to the stack ejection option 510 in the window 500, but thecontrol unit of the printing device determines a moment of stackejection via a rule based system or the operator determines a moment ofstack ejection via the user interface displaying the print job queue(See FIG. 2). In the case of the use of a rule based system the stackejection option of “No stack ejection” may be interpreted by the controlunit as no stack ejection despite any existing stack ejection rule inthe rule based system which rule relates to the same moment before orafter the print job, i.e. a stack ejection is prohibited before andafter the print job.

The stack ejection option 510 is displayed in the form of a selectiondrop-down box. Other forms of the stack ejection option may beenvisioned, for example a set of radio buttons.

The selected print job in the second entry field 540 has a job name“print job 1”. The print job named “print job 1” may be submitted to theprinting device by means of the submit button 550.

Assuming that after the “print job 1” is submitted to the printingdevice, five other print jobs, named “print job 2” up to “print job 6”,are also submitted, each of these five other print jobs having the stackejection option “No stack ejection”, the print job queue will contain atleast six print jobs and one stack ejection task as shown in FIG. 6.After the first print job 231 a task 231A for an ejection of the stackis scheduled in the print job queue 23A. After the stack ejection task231A, the other five print jobs 232-236 are scheduled in the print jobqueue 23A.

FIG. 7 shows a window 700 of the job submission application after theprint job named “print job 1” has been submitted by means of the submitbutton 550. After the submission a first feedback window 560 isdisplayed. The first feedback window 560 shows first feedback regardingthe intended moment in time of the ejection of the stack after the printjob named “print job 1” has been printed. The provided first feedbackmay comprise information of a predetermined number of sheets in thestack at the intended moment in time of ejection of the stack, apredetermined height of the stack at the intended moment in time ofejection of the stack, a predetermined number of print jobs in the stackat the intended moment in time of ejection of the stack, a predeterminednumber of sets of a print job in the stack at the intended moment intime of ejection of the stack, a predetermined weight of the stack atthe intended moment in time of ejection of the stack, a change of acustomer name property among the print jobs in the stack at the intendedmoment of ejection of the stack, or a maximum size of the sheets in thestack.

The first feedback window 560 mentions the number of sheets in the stack(50), a height of the stack (3 cm), a number of sets of a print job inthe stack (10), a weight of the stack (250 g), a customer name change“no change”. The number of sheets in the stack and the maximum size ofthe sheets in the stack may be of interest for further finishing of thestack. The height of the stack may be of interest for further packagingthe stack, for example in a box which has a predetermined height. Theweight of the stack may be of interest for further shipping cost of thestack and/or of interest for working conditions of the operator.

The first feedback is generated by retrieving from the control unitinformation about planned print jobs and planned stack ejections in theprint job queue. The submitted print job may invoke an informationrequest for the control unit to gather this information and send it backto the job submitter application.

The first feedback window 560 may already pop up before the submissionof the print job named “print job 1” when a stack ejection option in theselection box 520 is changed. Such a change of the stack ejection optionmay result in sending the information request as mentioned hereinbeforefrom the job submitter to the control unit of the printing device.

According to an embodiment the method of the invention comprises thestep of changing the intended moment in time of the ejection of thestack in the print job queue by moving the second visual object toanother position in the print job queue. Starting point is the print jobqueue as visually represented in FIG. 6. The operator has noticed thatthe output holder is not yet full and wants to change the moment ofstack ejection from a moment of stack ejection after the first print job231 into a moment of stack ejection after the second print job 232.Therefore the operator moves the stack ejection task item 231A by meansof drag-and-drop or by means of mouse dragging or by means of selectionand the move down image item 225 to a position after the second printjob 232 and before the third print job 233. The result of the movementis shown in FIG. 8.

FIG. 8 shows the stack ejection task item 232A as a result of themovement of the moment of stack ejection in FIG. 6, after the secondprint job 232. According to an embodiment the method of the inventionprovides second feedback regarding the changing of the intended momentin time of the ejection of the stack. The second feedback is displayedin FIG. 8 in a second feedback window 810 near the stack ejection taskitem 232A. The information of the stack ejection feedback in the secondfeedback window 810 is accordance with the moment of the planned stackejection after the second print job 232. The second feedback maycomprise information of at least one out of a predetermined number ofsheets in the stack at the intended moment in time of ejection of thestack, a predetermined height of the stack at the intended moment intime of ejection of the stack, a predetermined number of print jobs inthe stack at the intended moment in time of ejection of the stack, apredetermined number of sets of a print job in the stack at the intendedmoment in time of ejection of the stack, a predetermined weight of thestack at the intended moment in time of ejection of the stack, a changeof a customer name property among the print jobs in the stack at theintended moment of ejection of the stack, and a maximum size of thesheets in the stack at the intended moment of ejection of the stack.

FIG. 9 shows a flow diagram of an embodiment of the method according tothe present invention. A starting point A leads to the first step S1.

In a first step S1 of the method a trigger is received by the controlunit of the printing device. The trigger comprises information for anejection of the stack for another reason than a full output holder. Thestack ejection should be performed before the start of the printing of aprint job residing in the print job queue or after the print jobresiding in the print job queue has been printed. The trigger may beoriginated from a job submitter or from the use of a stack ejectionbutton or a stack ejection image item on a user interface screendisplaying the print job queue.

In a second step S2 a task for the ejection of the stack is entered at aposition in the print job queue. The position is selected and determinesan intended moment in time of the ejection of the stack corresponding tothe information comprised in the trigger. The entering of the task isdone automatically by the control unit of the printing device

In a third step S3 the print jobs in the print job queue are printedaccording to the sequence order of the print jobs in the print job queueand the stack of sheets is ejected at a moment in time in accordancewith the position of the entered task in the print job queue.

The method ends in an end point B.

The skilled person will recognize that other embodiments are possiblewithin the scope of the appended claims.

1. Method for ejecting a stack of sheets from an output holder attachedto a printing device, the output holder configured to hold a stack ofsheets printed upon by the printing device according to a plurality ofprint jobs submitted to the printing device, the printing devicecomprising a control unit for controlling the receiving of the pluralityof print jobs in a print job queue and the printing of the plurality ofprint jobs according to the print job queue, the method comprising thesteps of receiving a trigger via a user action on a user interface forthe printing device, the trigger comprising information for an ejectionof the stack for another reason than a full output holder, the stackejection to be performed before the start of the printing of a print jobresiding in the print job queue or after the print job residing in theprint job queue has been printed, and entering a task for the ejectionof the stack at a position in the print job queue, the positiondetermining an intended moment in time of the ejection of the stackcorresponding to the information comprised in the trigger, wherein thestack is intended to comprise a plurality of print jobs at the intendedmoment in time of the ejection of the stack.
 2. Method according toclaim 1, wherein the method comprises the steps of printing the printjobs according to the print job queue, and ejecting the stack of sheetsaccording to the entered task in the print job queue.
 3. Methodaccording to claim 1, wherein the method comprises the step of receivingthe trigger from a job submitter for submitting the print job to theprinting device.
 4. Method according to claim 3, wherein the methodcomprises the step of providing first feedback in a window being part ofthe job submitter regarding the intended moment in time of the ejectionof the stack.
 5. Method according to claim 4, wherein the provided firstfeedback comprises information of at least one out of a predeterminednumber of sheets in the stack at the intended moment in time of ejectionof the stack, a predetermined height of the stack at the intended momentin time of ejection of the stack, a predetermined number of print jobsin the stack at the intended moment in time of ejection of the stack, apredetermined number of sets of a print job in the stack at the intendedmoment in time of ejection of the stack, a predetermined weight of thestack at the intended moment in time of ejection of the stack, a changeof a customer name property among the print jobs in the stack at theintended moment in time of ejection of the stack, and a maximum sheetsize of the stack at the intended moment in time of ejection of thestack.
 6. Method according to claim 1, wherein the user interface forthe printing device is configured to to display the print job queue andthe method comprises the steps of displaying the print job queue on theuser interface, and receiving the trigger from an action applied to theprint job queue displayed on the user interface.
 7. Method according toclaim 6, wherein the action is a user action.
 8. Method according toclaim 6, wherein the user interface is configured to display a visualrepresentation of the print job queue, the visual representationcomprising a plurality of first visual objects, each first visual objectrepresenting a print job in the print job queue, and a second visualmovable object representing an ejection of a stack, the methodcomprising the step of determining the intended moment in time of theejection of the stack based on a relative position of the second visualobject and each of the first visual objects.
 9. Method according toclaim 8, wherein the method comprises the step of changing the intendedmoment in time of the ejection of the stack in the print job queue bymoving the second visual object to another position in the print jobqueue.
 10. Method according to claim 8, wherein the user interface isconfigured to display an eject button and the method comprises the stepsof selecting a print job from the print job queue, activating the ejectbutton, entering the task for the ejection of the stack after theselected print job in the print job queue, displaying the second visualmovable object in the visual representation of the print job queue afterthe first visual object representing the selected print job.
 11. Methodaccording to claim 9, wherein the method comprises the step of providingsecond feedback regarding the changing of the intended moment in time ofthe ejection of the stack.
 12. Method according to claim 11, wherein theprovided second feedback comprises information of at least one out of apredetermined number of sheets in the stack at the intended moment intime of ejection of the stack, a predetermined height of the stack atthe intended moment in time of ejection of the stack, a predeterminednumber of print jobs in the stack at the intended moment in time ofejection of the stack, a predetermined number of sets of a print job inthe stack at the intended moment in time of ejection of the stack, apredetermined weight of the stack at the intended moment in time ofejection of the stack, a change of a customer name property among theprint jobs in the stack at the intended moment of ejection of the stack,and a maximum size of the sheets in the stack at the intended moment intime of ejection of the stack.
 13. Method according to claim 3, whereinthe trigger is a print job ticket comprising a setting for ejection of astack having a value out of a first value of an ejection of the stackbefore the printing of the print job, a second value of an ejection of astack after the printing of the print job, a third value of no ejectionof the stack, and a fourth value of an unspecified ejection of thestack.
 14. Method according to claim 1, wherein the method comprises thestep of receiving the trigger from a local user interface being part ofthe output holder.
 15. Method according to claim 1, wherein the methodcomprises the step of receiving the trigger from a rule based systemcomprising ejection rules derived from properties of the print jobsresiding in the print job queue.
 16. Method according to claim 15,wherein each ejection rule of the rule based system has a setting out ofan activation option of the rule, a deactivation option of the rule andan advice option of the rule, wherein the user interface provides anadvice for an ejection of the stack if the setting of the advice optionis set for the rule.
 17. Method according to claim 15, wherein the rulebased system supports an ejection rule that an ejection is to bescheduled between a first print job to be printed before a second printjob, the first print job having a smaller format than the second printjob.
 18. Method according to claim 15, wherein the rule based systemsupports an ejection rule that an ejection is to be scheduled between afirst print job to be printed before a second print job, the first printjob to be delivered to another customer than the second print job. 19.Method according claim 1, wherein the task for the ejection of the stackcomprises a transfer of the stack from an internal output holder of theprinting device to an external output holder of the printing device. 20.Method according to claim 1, wherein the task for the stack ejectioncomprises a temporary stop of ejecting sheets of print jobs to theoutput holder as to enable a purposively emptying of the output holder.21. Printing system for printing print jobs on sheets, the print systemcomprising a printing device, an output holder attached to the printingdevice configured to hold a stack of sheets printed upon by the printingdevice, a first receiving means for receiving a print job to be printedon the printing device, a user interface configured to receive a triggervia a user action on the user interface, the trigger comprisinginformation for an ejection of the stack to be performed before thestart of the printing of the print job residing in the print jobschedule or after the print job residing in the print job schedule hasbeen printed, a control unit for controlling the printing of the printjob and the ejection of the stack, the control unit maintaining a printjob queue for scheduling print jobs and stack ejections, wherein thecontrol unit is configured to enter, upon receiving the trigger from theuser interface, a task for the ejection of the stack at a position inthe print job queue, the position determining an intended moment in timeof the ejection of the stack corresponding to the information comprisedin the trigger.
 22. Printing system according to claim 21, wherein theprinting system comprises a rule based system comprising ejection rulesderived from properties of print jobs residing in the print job queue,the rule base system configured to send the trigger to the secondreceiving means.
 23. Non-transitory recording medium comprising computerexecutable program code configured to instruct a computer to perform themethod according to claim 1.